An Account of the Fall Of a Meteoric Stone

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In summary, the conversation discusses a series of letters and a chemical analysis of a meteor that exploded over South Africa in the 1830's. The letters and analysis were found in the online archives of the Royal Society and may be of interest in relation to mysterious booms and the tunguska explosion. The chemical analysis conducted by M. Faraday is particularly interesting.
  • #1
zoobyshoe
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"An Account of the Fall Of a Meteoric Stone..."

This is a very interesting series of letters followed by a chemical analysis, concerning a meteor that exploded over South Africa in the 1830's.

I happened to find it when searching for articles by M. Faraday in the archives of the Royal Society, which are now online:
http://www.journals.royalsoc.ac.uk

It's pdf, but doesn't take too long to load.

http://www.journals.royalsoc.ac.uk/media/2l5x1hqytpcyxrnntdtx/contributions/w/3/6/9/w36973pk17239923.pdf

It should be of interest in connection with stories of mysterious booms, and the tunguska explosion. I thought the chemical analysis conducted by Faraday was pretty interesting.
 
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st235711 said:
The second link goes to the same page as the first link :cry:

That's because you have to login.
 
  • #3
You should be able to get to the article without registering by typing in "meteoric stone hope" in the search box on the main page. That will take you to a page where you will be informed there is no abstract of the article to read, but you have the option of displaying the full text. Click on that, and the pdf will load.
 

1. What is a meteoric stone?

A meteoric stone, also known as a meteorite, is a solid piece of debris from an object such as a comet, asteroid, or meteoroid that has survived its passage through the Earth's atmosphere and landed on the Earth's surface.

2. How do meteoric stones form?

Meteoric stones are formed when larger objects, such as asteroids or comets, collide with each other in space. This collision causes pieces of the objects to break off and become meteoroids. When a meteoroid enters Earth's atmosphere, the friction and heat cause it to glow and create a streak of light in the sky. If the meteoroid is large enough, it can survive the journey through the atmosphere and become a meteoric stone.

3. Where do meteoric stones usually land?

Meteoric stones can land anywhere on Earth, but they are most commonly found in areas with low vegetation and high visibility, such as deserts, plains, and ice fields. This is because these areas make it easier to spot the dark-colored stones against the lighter surroundings.

4. How are meteoric stones studied?

Meteoric stones are studied by scientists, known as meteoriticists, who examine the physical, chemical, and mineralogical properties of the stones. They also analyze the age and composition of the stones to learn more about the formation and evolution of our solar system.

5. Why are meteoric stones important?

Meteoric stones are important because they provide valuable information about the history and composition of our solar system. They can also give us insight into the formation of planets and the potential for life on other planets. Additionally, studying meteoric stones can help us understand the potential risks of larger objects colliding with Earth in the future.

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